package encryption

import (
	"bytes"
	"crypto/ecdsa"
	"database/sql"
	"fmt"

	"go.uber.org/zap"

	"github.com/pkg/errors"

	"github.com/status-im/status-go/eth-node/crypto"
	"github.com/status-im/status-go/eth-node/types"

	"github.com/status-im/status-go/protocol/encryption/multidevice"
	"github.com/status-im/status-go/protocol/encryption/publisher"
	"github.com/status-im/status-go/protocol/encryption/sharedsecret"
)

//go:generate protoc --go_out=. ./protocol_message.proto

const (
	protocolVersion                = 1
	sharedSecretNegotiationVersion = 1
	partitionedTopicMinVersion     = 1
	defaultMinVersion              = 0
)

type PartitionTopicMode int

const (
	PartitionTopicNoSupport PartitionTopicMode = iota
	PartitionTopicV1
)

type ProtocolMessageSpec struct {
	Message *ProtocolMessage
	// Installations is the targeted devices
	Installations []*multidevice.Installation
	// SharedSecret is a shared secret established among the installations
	SharedSecret *sharedsecret.Secret
	// AgreedSecret indicates whether the shared secret has been agreed
	AgreedSecret bool
	// Public means that the spec contains a public wrapped message
	Public bool
}

func (p *ProtocolMessageSpec) MinVersion() uint32 {
	if len(p.Installations) == 0 {
		return defaultMinVersion
	}

	version := p.Installations[0].Version

	for _, installation := range p.Installations[1:] {
		if installation.Version < version {
			version = installation.Version
		}
	}
	return version
}

func (p *ProtocolMessageSpec) PartitionedTopicMode() PartitionTopicMode {
	if p.MinVersion() >= partitionedTopicMinVersion {
		return PartitionTopicV1
	}
	return PartitionTopicNoSupport
}

type Protocol struct {
	encryptor     *encryptor
	secret        *sharedsecret.SharedSecret
	multidevice   *multidevice.Multidevice
	publisher     *publisher.Publisher
	subscriptions *Subscriptions

	logger *zap.Logger
}

var (
	// ErrNoPayload means that there was no payload found in the received protocol message.
	ErrNoPayload = errors.New("no payload")
)

// New creates a new ProtocolService instance
func New(
	db *sql.DB,
	installationID string,
	logger *zap.Logger,
) *Protocol {
	return NewWithEncryptorConfig(
		db,
		installationID,
		defaultEncryptorConfig(installationID, logger),
		logger,
	)
}

// DB and migrations are shared between encryption package
// and its sub-packages.
func NewWithEncryptorConfig(
	db *sql.DB,
	installationID string,
	encryptorConfig encryptorConfig,
	logger *zap.Logger,
) *Protocol {
	return &Protocol{
		encryptor: newEncryptor(db, encryptorConfig),
		secret:    sharedsecret.New(db, logger),
		multidevice: multidevice.New(db, &multidevice.Config{
			MaxInstallations: 3,
			ProtocolVersion:  protocolVersion,
			InstallationID:   installationID,
		}),
		publisher: publisher.New(logger),
		logger:    logger.With(zap.Namespace("Protocol")),
	}
}

type Subscriptions struct {
	SharedSecrets   []*sharedsecret.Secret
	SendContactCode <-chan struct{}
	Quit            chan struct{}
}

func (p *Protocol) Start(myIdentity *ecdsa.PrivateKey) (*Subscriptions, error) {
	// Propagate currently cached shared secrets.
	secrets, err := p.secret.All()
	if err != nil {
		return nil, errors.Wrap(err, "failed to get all secrets")
	}
	p.subscriptions = &Subscriptions{
		SharedSecrets:   secrets,
		SendContactCode: p.publisher.Start(),
		Quit:            make(chan struct{}),
	}
	return p.subscriptions, nil
}

func (p *Protocol) Stop() error {
	p.publisher.Stop()
	if p.subscriptions != nil {
		close(p.subscriptions.Quit)
	}
	return nil
}

func (p *Protocol) addBundle(myIdentityKey *ecdsa.PrivateKey, msg *ProtocolMessage) error {
	// Get a bundle
	installations, err := p.multidevice.GetOurActiveInstallations(&myIdentityKey.PublicKey)
	if err != nil {
		return err
	}

	bundle, err := p.encryptor.CreateBundle(myIdentityKey, installations)
	if err != nil {
		return err
	}

	msg.Bundles = []*Bundle{bundle}

	return nil
}

// BuildPublicMessage marshals a public chat message given the user identity private key and a payload
func (p *Protocol) BuildPublicMessage(myIdentityKey *ecdsa.PrivateKey, payload []byte) (*ProtocolMessageSpec, error) {
	// Build message not encrypted
	message := &ProtocolMessage{
		InstallationId: p.encryptor.config.InstallationID,
		PublicMessage:  payload,
	}

	err := p.addBundle(myIdentityKey, message)
	if err != nil {
		return nil, err
	}

	return &ProtocolMessageSpec{Message: message, Public: true}, nil
}

// BuildDirectMessage returns a 1:1 chat message and optionally a negotiated topic given the user identity private key, the recipient's public key, and a payload
func (p *Protocol) BuildDirectMessage(myIdentityKey *ecdsa.PrivateKey, publicKey *ecdsa.PublicKey, payload []byte) (*ProtocolMessageSpec, error) {

	// Get recipients installations.
	activeInstallations, err := p.multidevice.GetActiveInstallations(publicKey)
	if err != nil {
		return nil, err
	}

	// Encrypt payload
	directMessagesByInstalls, installations, err := p.encryptor.EncryptPayload(publicKey, myIdentityKey, activeInstallations, payload)
	if err != nil {
		return nil, err
	}

	// Build message
	message := &ProtocolMessage{
		InstallationId: p.encryptor.config.InstallationID,
		DirectMessage:  directMessagesByInstalls,
	}

	err = p.addBundle(myIdentityKey, message)
	if err != nil {
		return nil, err
	}

	// Check who we are sending the message to, and see if we have a shared secret
	// across devices
	var installationIDs []string
	for installationID := range message.GetDirectMessage() {
		if installationID != noInstallationID {
			installationIDs = append(installationIDs, installationID)
		}
	}

	sharedSecret, agreed, err := p.secret.Agreed(myIdentityKey, p.encryptor.config.InstallationID, publicKey, installationIDs)
	if err != nil {
		return nil, err
	}

	spec := &ProtocolMessageSpec{
		SharedSecret:  sharedSecret,
		AgreedSecret:  agreed,
		Message:       message,
		Installations: installations,
	}
	return spec, nil
}

// BuildDHMessage builds a message with DH encryption so that it can be decrypted by any other device.
func (p *Protocol) BuildDHMessage(myIdentityKey *ecdsa.PrivateKey, destination *ecdsa.PublicKey, payload []byte) (*ProtocolMessageSpec, error) {
	// Encrypt payload
	encryptionResponse, err := p.encryptor.EncryptPayloadWithDH(destination, payload)
	if err != nil {
		return nil, err
	}

	// Build message
	message := &ProtocolMessage{
		InstallationId: p.encryptor.config.InstallationID,
		DirectMessage:  encryptionResponse,
	}

	err = p.addBundle(myIdentityKey, message)
	if err != nil {
		return nil, err
	}

	return &ProtocolMessageSpec{Message: message}, nil
}

// ProcessPublicBundle processes a received X3DH bundle.
func (p *Protocol) ProcessPublicBundle(myIdentityKey *ecdsa.PrivateKey, bundle *Bundle) ([]*multidevice.Installation, error) {
	logger := p.logger.With(zap.String("site", "ProcessPublicBundle"))

	if err := p.encryptor.ProcessPublicBundle(myIdentityKey, bundle); err != nil {
		return nil, err
	}

	installations, enabled, err := p.recoverInstallationsFromBundle(myIdentityKey, bundle)
	if err != nil {
		return nil, err
	}

	// TODO(adam): why do we add installations using identity obtained from GetIdentity()
	// instead of the output of crypto.CompressPubkey()? I tried the second option
	// and the unit tests TestTopic and TestMaxDevices fail.
	identityFromBundle := bundle.GetIdentity()
	theirIdentity, err := ExtractIdentity(bundle)
	if err != nil {
		logger.Panic("unrecoverable error extracting identity", zap.Error(err))
	}
	compressedIdentity := crypto.CompressPubkey(theirIdentity)
	if !bytes.Equal(identityFromBundle, compressedIdentity) {
		logger.Panic("identity from bundle and compressed are not equal")
	}

	return p.multidevice.AddInstallations(bundle.GetIdentity(), bundle.GetTimestamp(), installations, enabled)
}

// recoverInstallationsFromBundle extracts installations from the bundle.
// It returns extracted installations and true if the installations
// are ours, i.e. the bundle was created by our identity key.
func (p *Protocol) recoverInstallationsFromBundle(myIdentityKey *ecdsa.PrivateKey, bundle *Bundle) ([]*multidevice.Installation, bool, error) {
	var installations []*multidevice.Installation

	theirIdentity, err := ExtractIdentity(bundle)
	if err != nil {
		return nil, false, err
	}

	myIdentityStr := fmt.Sprintf("0x%x", crypto.FromECDSAPub(&myIdentityKey.PublicKey))
	theirIdentityStr := fmt.Sprintf("0x%x", crypto.FromECDSAPub(theirIdentity))
	// Any device from other peers will be considered enabled, ours needs to
	// be explicitly enabled.
	enabled := theirIdentityStr != myIdentityStr
	signedPreKeys := bundle.GetSignedPreKeys()

	for installationID, signedPreKey := range signedPreKeys {
		if installationID != p.multidevice.InstallationID() {
			installations = append(installations, &multidevice.Installation{
				Identity: theirIdentityStr,
				ID:       installationID,
				Version:  signedPreKey.GetProtocolVersion(),
			})
		}
	}

	return installations, enabled, nil
}

// GetBundle retrieves or creates a X3DH bundle, given a private identity key.
func (p *Protocol) GetBundle(myIdentityKey *ecdsa.PrivateKey) (*Bundle, error) {
	installations, err := p.multidevice.GetOurActiveInstallations(&myIdentityKey.PublicKey)
	if err != nil {
		return nil, err
	}

	return p.encryptor.CreateBundle(myIdentityKey, installations)
}

// EnableInstallation enables an installation for multi-device sync.
func (p *Protocol) EnableInstallation(myIdentityKey *ecdsa.PublicKey, installationID string) error {
	return p.multidevice.EnableInstallation(myIdentityKey, installationID)
}

// DisableInstallation disables an installation for multi-device sync.
func (p *Protocol) DisableInstallation(myIdentityKey *ecdsa.PublicKey, installationID string) error {
	return p.multidevice.DisableInstallation(myIdentityKey, installationID)
}

// GetOurInstallations returns all the installations available given an identity
func (p *Protocol) GetOurInstallations(myIdentityKey *ecdsa.PublicKey) ([]*multidevice.Installation, error) {
	return p.multidevice.GetOurInstallations(myIdentityKey)
}

// GetOurActiveInstallations returns all the active installations available given an identity
func (p *Protocol) GetOurActiveInstallations(myIdentityKey *ecdsa.PublicKey) ([]*multidevice.Installation, error) {
	return p.multidevice.GetOurActiveInstallations(myIdentityKey)
}

// SetInstallationMetadata sets the metadata for our own installation
func (p *Protocol) SetInstallationMetadata(myIdentityKey *ecdsa.PublicKey, installationID string, data *multidevice.InstallationMetadata) error {
	return p.multidevice.SetInstallationMetadata(myIdentityKey, installationID, data)
}

// GetPublicBundle retrieves a public bundle given an identity
func (p *Protocol) GetPublicBundle(theirIdentityKey *ecdsa.PublicKey) (*Bundle, error) {
	installations, err := p.multidevice.GetActiveInstallations(theirIdentityKey)
	if err != nil {
		return nil, err
	}
	return p.encryptor.GetPublicBundle(theirIdentityKey, installations)
}

// ConfirmMessageProcessed confirms and deletes message keys for the given messages
func (p *Protocol) ConfirmMessageProcessed(messageID []byte) error {
	logger := p.logger.With(zap.String("site", "ConfirmMessageProcessed"))
	logger.Debug("confirming message", zap.Binary("message-id", messageID))
	return p.encryptor.ConfirmMessageProcessed(messageID)
}

type DecryptMessageResponse struct {
	DecryptedMessage []byte
	Installations    []*multidevice.Installation
	SharedSecrets    []*sharedsecret.Secret
}

// HandleMessage unmarshals a message and processes it, decrypting it if it is a 1:1 message.
func (p *Protocol) HandleMessage(
	myIdentityKey *ecdsa.PrivateKey,
	theirPublicKey *ecdsa.PublicKey,
	protocolMessage *ProtocolMessage,
	messageID []byte,
) (*DecryptMessageResponse, error) {
	logger := p.logger.With(zap.String("site", "HandleMessage"))
	response := &DecryptMessageResponse{}

	logger.Debug("received a protocol message",
		zap.String("sender-public-key",
			types.EncodeHex(crypto.FromECDSAPub(theirPublicKey))),
		zap.String("my-installation-id", p.encryptor.config.InstallationID),
		zap.String("message-id", types.EncodeHex(messageID)))

	if p.encryptor == nil {
		return nil, errors.New("encryption service not initialized")
	}

	// Process bundles
	for _, bundle := range protocolMessage.GetBundles() {
		// Should we stop processing if the bundle cannot be verified?
		newInstallations, err := p.ProcessPublicBundle(myIdentityKey, bundle)
		if err != nil {
			return nil, err
		}
		response.Installations = newInstallations
	}

	// Check if it's a public message
	if publicMessage := protocolMessage.GetPublicMessage(); publicMessage != nil {
		// Nothing to do, as already in cleartext
		response.DecryptedMessage = publicMessage
		return response, nil
	}

	// Decrypt message
	if directMessage := protocolMessage.GetDirectMessage(); directMessage != nil {
		message, err := p.encryptor.DecryptPayload(
			myIdentityKey,
			theirPublicKey,
			protocolMessage.GetInstallationId(),
			directMessage,
			messageID,
		)
		if err != nil {
			return nil, err
		}

		bundles := protocolMessage.GetBundles()
		version := getProtocolVersion(bundles, protocolMessage.GetInstallationId())
		if version >= sharedSecretNegotiationVersion {
			sharedSecret, err := p.secret.Generate(myIdentityKey, theirPublicKey, protocolMessage.GetInstallationId())
			if err != nil {
				return nil, err
			}

			response.SharedSecrets = []*sharedsecret.Secret{sharedSecret}
		}
		response.DecryptedMessage = message
		return response, nil
	}

	// Return error
	return nil, ErrNoPayload
}

func (p *Protocol) ShouldAdvertiseBundle(publicKey *ecdsa.PublicKey, time int64) (bool, error) {
	return p.publisher.ShouldAdvertiseBundle(publicKey, time)
}

func (p *Protocol) ConfirmBundleAdvertisement(publicKey *ecdsa.PublicKey, time int64) {
	p.publisher.SetLastAck(publicKey, time)
}

func (p *Protocol) BuildBundleAdvertiseMessage(myIdentityKey *ecdsa.PrivateKey, publicKey *ecdsa.PublicKey) (*ProtocolMessageSpec, error) {
	return p.BuildDHMessage(myIdentityKey, publicKey, nil)
}

func getProtocolVersion(bundles []*Bundle, installationID string) uint32 {
	if installationID == "" {
		return defaultMinVersion
	}

	for _, bundle := range bundles {
		if bundle != nil {
			signedPreKeys := bundle.GetSignedPreKeys()
			if signedPreKeys == nil {
				continue
			}

			signedPreKey := signedPreKeys[installationID]
			if signedPreKey == nil {
				return defaultMinVersion
			}

			return signedPreKey.GetProtocolVersion()
		}
	}

	return defaultMinVersion
}